Measurement of Neutron Whispering Gallery States Using a Pulsed Neutron Beam
Abstract
A neutron whispering gallery state is a quantum state localized on a material surface bound by the centrifugal force and the material potential. Precise measurements of such quantum states enable tests of quantum mechanics in non-inertial frames, characterization of the surface potential, and searches for hypothetical short-range interactions at the nanometer scale. We observed a neutron whispering gallery state on a SiO2 concave mirror using a pulsed cold neutron beam. The measured results agree with theoretical calculations within 1.9\% for the centrifugal acceleration a ≈ 7× 107\,m/s2, which is due to unmodeled deviations of the shape of the concave mirror edge from an ideal one. We found that the sensitivity itself was 1× 10-4, which is two orders of magnitude better than the above agreement.
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